JP2001512332A - Ram device - Google Patents

Abstract

(57) Abstract: A spreading tool (10) including a hollow tube (12), a first ram member (14), and a second ram member (16). The hollow tube (12) has a tubular wall (18), which is provided with an axial through hole (28), and at least one opening (30) extends through the tubular wall (12). The ram member is slidably disposed in the through hole (28), and at least one ram member (14) can extend beyond the outer edge of the hollow tube (12). The tool (10) may be usable with a booster (1) that transmits power through a relative movement between at least two extendable ends (2a and 2b). The first (14) and second ram members (16) are intensifiers (1) so that the tool (10) can extend the expandable distance of the jaws and increase the distance over which power is transmitted. Can be separated by

Description

DETAILED DESCRIPTION OF THE INVENTION                                 Ram device   Background of the Invention 1. Field of the invention   The invention relates to a ram device or a ram-type spreading tool or at least two spreading devices. Tools used with intensifiers that transmit power through relative movement between And especially portable rescue equipment with at least two expandable jaws About the installation. 2. Description of the prior art   Curtis Rye at Fairfield, NJ, New Jersey By Curtiss Wright Flight Systems, Inc. Power HAWK (registered trademark), manufactured and sold in U.S.A. Hurst Performa of Warminster, Pa. , Inc.), "JAWS OF LIFE (JAWS OF LIFE) ( Powered rescue tools like '(registered trademark)' escape without this Victims from vehicles, buildings and other structures that make it difficult or nearly impossible Is a special tool used by rescue workers to rescue the. these Tools are typically inoperable doors, damaged structures, or blocked Extension or clamping force to open or tear the passage generate. Working ends of a pair of jaws of such an expandable jaw power tool Produces typically 7,000 to 15,000 pounds of pushing or pulling force You. These large forces include pneumatic, hydraulic, gasoline and power units. Achieved by various power supply means. Police, fire and rescue personnel have The device has to be applied in various emergency situations.   However, the distance or range to which the spreading or cutting force can be applied is less than Limited to the maximum extendable distance between the two extending ends of the tool. Larger opening Are required or appropriate braces or struts or supports are available However, in situations where the rescue tool is out of the extendable range, The tool can be effectively invalid. Auto parts such as doors or handles are not often Extremely damaged and distorted and extendable range of rescue tools rescues victims May be insufficient for

[Procedural Amendment] Article 184-8, Paragraph 1 of the Patent Act [Date of Submission] August 16, 1999 (August 16, 1999) [Content of Amendment] Description Ram device Background of the Invention FIELD OF THE INVENTION The present invention relates to a ram device or ram-type spreading tool, or a tool for use with a booster that transmits power through relative movement between at least two extendable ends, and in particular a portable device having at least two expandable jaws. It relates to a rescue device. 2. Description of the Prior Art "POWER HAWK (R)" and Pennsylvania manufactured and sold by Curtiss Wright Flight Systems, Inc. of Fairfield, NJ Powered portable rescue such as "JAWS OF LIFE" manufactured and sold by Hurst Performance, Inc. of Warminster, Pa. Tools are special tools used by rescue personnel to rescue victims from vehicles, buildings and other structures that would otherwise be difficult or nearly impossible to escape. These tools typically generate a spreading or clamping force to open or tear inoperable doors, broken structures, or blocked passages. At the working end of a pair of jaws of such an expandable jaw power tool, a push or pull force of typically 7,000 to 15,000 pounds is generated. These high forces are achieved by various powering means including pneumatic, hydraulic, gasoline and power units. Police, fire and rescue personnel must apply these devices in various emergency situations. However, the distance or range over which the spreading or cutting force can be applied is limited to the maximum extendable distance between the two extending ends of the rescue tool. In situations where a larger opening is required, or where appropriate bracing or struts or supports are available but are located outside the expandable range of the rescue tool, the tool may be effectively disabled. Automobile parts, such as doors or handles, can become too severely damaged and distorted such that the expandable range of the rescue tool is insufficient to rescue the victim. One of the objects of the present invention is to use with a booster that transmits power through the relative movement between at least two extendable ends, thereby increasing the depth of the jaw and the power of the jaw or arm of such a device. It is to provide a tool that uses more strokes. Another object is to provide a tool for use with a portable rescue device having at least two expandable jaws. Yet another object is to provide a tool that allows the total spreading force of such a device to be exerted over longer distances. Another object is to provide a durable, rugged tool that can withstand the forces generated by such devices. Yet another object is to provide a tool that requires little or no additional power requirements. A further object is to provide a portable tool. Another further object is to provide a tool that requires little maintenance. Another object is to provide a lightweight and easy to use tool. Summary of the Invention The invention comprises a tool for use with a booster that transmits power through relative movement between at least two extendable ends. The tool includes a hollow tube, a first extension member disposed within the tube, a second extension member disposed within the tube, wherein the first and second extension members are movable and separable, and Means for receiving the extendable end within the tube and allowing the extendable end to contact the first and second extension members. Increased relative movement between the extendable ends increases relative movement between the first and second elongate members, whereby power is transmitted from the extendable ends through the elongate members and the tool transmits power. It is possible to increase the distance. Preferably, the first and second extension members are slidably disposed within the tube, but one of the members may be fixed at a particular location within the tube. The tool may further include means for preventing rotation of the first extension member, means for preventing rotation of the second extension member, and / or for selectively securing the second extension member within the tube. Means may be included. Handle means are disposed on the outer surface of the tube. The first extension member may further include a telescopic extension member. The tool is also mounted on the distal end of the first extension member, the means for limiting insertion of the first extension member into the tube, the means for distributing the force transmitted through the first extension member. It may include bracket means and / or means for distributing the force transmitted through the second extension member. A substrate may be attached to the end of the second extension member. In certain embodiments, a substrate ring may be removably attached to the distal end of the second extension member. The second extension member may have a more pointed end. A gripping means may be disposed on the distal end of the first or second elongate member to reduce slippage of the tool during use. In another embodiment, the invention comprises a spreading tool including a hollow tube, a first ram member, and a second ram member. The hollow tube is a tubular wall having an inner surface and an outer surface, first and second ends, an axial direction defined by the inner surface of the tubular wall and extending along a longitudinal axis from a first end to a second end. And at least one opening extending through the tubular wall. A first ram member is slidably disposed within the through hole and has an outward end and an inward end, the outward end extending beyond the first end of the hollow tube. Can be. A second ram member is slidably disposed within the through hole and has an outward end and an inward end, the outward end extending beyond the second end of the hollow tube. Can be. The inward ends of the first and second ram members are separable from each other between a minimum offset and a second offset within the active portion of the hollow tube, and at least a portion of the opening is hollow. Disposed over the active portion of the tube, one or both of the ram members can project from the at least partially hollow tube when the ram members are separated by a second offset. The first ram member further includes a shell member slidably disposed within the through hole and having an inwardly closed end and an outwardly open end, an outwardly extending axial hole partially extending into the shell member. , And a support rod inserted into the axial bore. The support rod is slidably disposed in the axial bore. Means are provided for selectively limiting insertion of the support rod into the hollow tube, wherein one or more longitudinally spaced side holes are disposed in the support rod, and at least one pin is connected to one of the holes. May be included for insertion into In certain embodiments, a pin can abut the first end of the hollow tube. The second ram member may further comprise means for selectively securing the second ram member within the through-hole, the second ram member comprising one or more side holes disposed within the second ram member. One or more side holes disposed through the hollow tube and at least one adjustment pin for insertion into one of the holes in the tube and one of the holes in the second ram member. In certain embodiments, the spreading tool may include means for selectively securing the second ram member to two or more fixed locations relative to a series of longitudinally spaced holes. . A substrate may be provided that can engage the outwardly facing end of the second ram member. The substrate may be removably attached to the second ram member. The outwardly facing end of the second ram member may comprise a generally conical tip, wherein the substrate is slidably engageable with the conical tip. Will be provided. The substrate ring may further comprise gripping means disposed on an outwardly facing surface of the substrate ring. The gripping means may further comprise at least one projection extending from the outwardly facing surface of the substrate. Alternatively, the outwardly facing end of the second ram member may comprise a substantially flat portion. The substrate can be attached to the second ram member by screwing. Handle means are disposed on the outer surface of the tubular wall. The spreading tool may further comprise means for preventing rotation of the first and second ram members, including slot means disposed on an inner surface of the tubular wall, an outer surface of the first ram member. And a ram member disposed thereon for axially slidable within the through-hole of the hollow tube and slidably engageable with the slot means to substantially prevent rotation of the ram member. A first engaging means, and a slot disposed on the outer surface of the second ram member so as to allow the ram member to slide axially within the through bore of the hollow tube and substantially prevent rotation of the ram member. A second engagement means adapted to be slidably engageable with the means. The support rod may further comprise a telescopic support rod. The inward end of the first ram member may further comprise an inner end plate, the inner end plate extending at least partially through the opening and abutting a portion of the tubular wall surrounding the opening. And any contact between the protrusion and the hollow tube substantially prevents rotation of the first ram. The spreading tool may include means for limiting the penetration of the shell member into the through-hole of the hollow tube, wherein the collar member is attached to the outwardly open end of the shell member and the support rod slides. And has a central hole to allow passage therethrough, and at least a portion of the collar can abut the first end of the shell member. The collar member may be attached to the shell member by screwing, may be attached to the shell member by a threaded fastening, or may be fixedly attached to the shell member. When a pin is provided on the first ram member, the pin may be able to abut on the flange member. The spreading tool may further include a bracket member connected to the outward end of the first ram member. The bracket member comprises a base and two opposing arms. In one embodiment, the arms are disposed substantially at a right angle from the base, and in another embodiment, the arms are disposed at an obtuse angle from the base. In yet another embodiment, the present invention relates to a spreading tool for use with a portable rescue device having at least two expandable jaws. The tool comprises a first long piston member, a second long piston member, and a hollow tube adapted to hold the first and second piston members in a separated end-to-end relationship. The tube includes means for allowing the expandable jaws to move the first and second piston members apart, and the tool can increase the expandable distance of the jaws. Although the first and second piston members are slidably disposed within the tube, one of the piston members, preferably the second piston member, may be at least temporarily fixed within the tube. The tool may include means for preventing rotation of the first piston member and / or means for preventing rotation of the second piston member. The tool may also include means for selectively securing the second piston member within the tube. Handle means are disposed on the outer surface of the tube. The first piston member may further include a telescopic piston member. The tool further includes means for limiting insertion of the first piston member into the tube, force distribution means mounted at a distal end of the first piston member, bracket means mounted at a distal end of the first piston member, And / or may include force distribution means attached to the distal end of the second piston member. The substrate may be attached to the end of the second piston member, or the substrate ring may be removably attached to the end of the second piston member. The second piston member may have a sharp end that fits the substrate ring. A gripper may be disposed on the distal end of the first or second piston member to reduce slippage of the tool during use. In this manner, the present invention is used with a booster that transmits power through relative movement between at least two extendable ends, thereby increasing the depth of the jaws and the power of the jaws or arms of such devices. Provide tools that use more strokes. This tool can be used with a portable rescue device having at least two expandable jaws, allowing the total spreading force of such a device to be exerted over a longer distance. The tool can be constructed to be durable and robust to withstand the forces generated by such devices. The tool requires little or no additional power requirements or maintenance. The tool is generally portable and easy to use. Also, the tool can be constructed relatively lightweight. BRIEF DESCRIPTION OF THE FIGURES FIG. 1 is an isometric view of a prior art booster that can be used with the present invention. FIG. 2 shows a first ram member which is telescopic, a bracket member with an inclined arm, a second ram member with a conical end, and a substrate ring, a perspective view of a first embodiment of the invention. FIG. FIG. 3 is a cutaway elevational view similar to FIG. 1 but showing a second embodiment without additional gripping means at the distal end, with additional means for limiting the insertion of the support rod into the shell member. FIG. 4 is a side cutaway view of another embodiment of a hollow tube with an opening and first and second ram members extending partially out of the tube, showing a prior art booster device; The extendable end is indicated by a broken line. FIG. 5 is a side cutaway view of the embodiment of FIG. 3 showing the first and second ram members completely within the tube. FIG. 6 is a partial cutaway side view of an embodiment of a first ram member having a pin that abuts a hollow tube to limit insertion of a support rod into the tube. FIG. 7 is a cross-sectional view of an embodiment of the second ram member fixedly disposed in the tube by the adjustment pin. FIG. 8 is a side view of an embodiment of a second ram member having a plurality of holes to allow the second ram member to be selectively secured at more than one location in the tube. FIG. 9 is a perspective view of the distal end of the second ram member and the embodiment of the substrate. FIG. 10 is a cross-sectional view of an embodiment of a first ram member having engaging means including a plurality of protrusions and a tube having corresponding slot means. FIG. 11 is a cross-sectional view of an embodiment of the first ram member having a protrusion extending through an opening in the tube. FIG.12A has a collar member disposed on the outward end and a pin that can limit insertion of the support rod into the shell member and also limit insertion of the support member into the tube. FIG. 12B is a partial side cutaway view of an embodiment of the first ram member, and FIG. 12B is an end view thereof. FIG. 13 is a perspective view of an embodiment of a bracket member having a support rod and an arm disposed substantially at right angles to the base. FIG. 14A is a side view of a hollow tube having holes at both ends for fixing the second member to each end, and FIG. 14B is an end view thereof. FIG. 15 is an end view of an embodiment of the present invention having a hollow tubular member having a substantially square cross section. Description of the preferred embodiment The present invention comprises a tool for use with a booster that transmits power through relative movement between at least two extendable ends. The tool includes a hollow tube, a first extension member disposed within the tube, a second extension member disposed within the tube, wherein the first and second extension members are moveable and extendable. Means for receiving the end in the tube and allowing the extendable end to abut the first and second extension members. Increased relative movement between the extendable ends increases relative movement between the first and second extension members, thereby transmitting power from the extendable ends through the extension members. In this way, the tool can increase the distance over which power is transmitted. The invention also comprises a spreading tool for use with a portable rescue device having at least two extendable jaws. The tool comprises a first elongated piston member, a second elongated piston member, and a hollow tube adapted to hold the first and second piston members in an end-to-end relationship. A possible jaw includes means for allowing the first and second piston members to move apart. The tool can thus increase the expandable distance of the jaws. Further, the invention comprises a spreading tool including a hollow tube, a first ram member, and a second ram member. The hollow tube is a tubular wall having an inner surface and an outer surface, first and second ends, an axial direction defined by the inner surface of the tubular wall and extending along a longitudinal axis from a first end to a second end. And at least one opening extending through the tubular wall. A first ram member is slidably disposed within the through hole and has an outward end and an inward end, the outward end extending beyond the first end of the hollow tube. Can be. The second ram member is slidably disposed within the through hole and has an outward end and an inward end, the outward end extending beyond the second end of the hollow tube. Can be. The inward ends of the first and second ram members can be separated from each other between a minimum offset and a second offset within the active portion of the hollow tube. At least a portion of the opening is disposed over the active portion of the hollow tube, and one or both of the ram members may project at least partially from the hollow tube when the ram members are separated by a second offset. it can. Thus, the present invention can be used as a means to extend the extension distance of known rescue or power tools for applying large push / pull forces. Known rescue tools may comprise a rotating arm and activation means for applying a force for movement and relative movement of the arm. In one embodiment, the outer cylinder includes a longitudinally extending slot for receiving an extended end from a rescue tool or the like, the extended end driving a ram element retracted into the outer cylinder to expand the rescue tool or the like. I do. One ram element may be fixed in the cylinder, and the other ram element may be a movable ram member extending out of the cylinder. The present invention can be used to separate, extrude, pull, or drive various objects. The force available at the end of the extendable arm or jaw of the power device can be used to open, tear, break, extend, remove, or move internal or external structures. Also, the present invention can be used to bend, split, lift, separate, flatten, or straighten various structures. INDUSTRIAL APPLICATION This invention is applicable to motor vehicles, such as a motor vehicle, a truck, a ship, an aircraft, and a military aircraft, or its part. Further, the present invention can be applied to buildings, factory machines, other facilities or structures, and the like, or parts thereof. Further, the present invention can be used with a jack device or the like. A jack is operably inserted into the present invention and expanded by cranking, pumping, screwing or other drive means. The invention can thus be used to precisely control the expansion of known devices. FIG. 1 shows an example of a prior art booster or portable rescue device 1 that can be used with the present invention. FIG. 1 corresponds to FIG. 1 of US Pat. No. 5,297,780 and shows extendable ends 2a, 2b that can be inserted into the present invention as described below. The operation of the device 1 is described in U.S. Pat. No. 5,297,780. It should be understood that the present invention can be used with other types of devices having extendable ends. With particular reference to the drawings, the embodiment shown in FIGS. 2-3 illustrates a spreading tool 10 comprising a hollow tube 12, a first extension or ram member 14, and a second extension or ram member 16. The hollow tube 12 is defined by a tubular wall 18 having an inner surface and an outer surface 20,22, first and second ends 24,26, an inner surface 20 of the tubular wall 18 from the first end 24 to the first end 24. It has an axial through hole 28 extending along the longitudinal axis LL to the second end 26, and an opening 30 extending through the tubular wall 18. The opening 30 shown in FIG. 2 has a substantially rectangular outline with rounded corners. However, the opening 30 can have a variety of shapes and dimensions adapted to a particular device or a variety of devices that can be inserted into the opening 30, and these devices connect one or both of the ram members 14,16 to a tube. Used to extrude 12 out. For example, the opening 30 can be circular, oval, square, oval, and the like. Further, two or more openings may be provided in the tube, for example, diametrically opposed openings on both sides of the tube 12, or openings on the same side of the tube 12 but on both ends, or longitudinal on both sides. The opening may be offset in the direction. For example, the extendable ends 2a, 2b of the device 1 shown in FIG. 1 can be inserted into the openings 30 to exert a force on the ram members 14,16. The first ram member 14 is slidably disposed in the through hole 28 and has an outward end 32 and an inward end 34. The outward end 32 can extend beyond the first end 24 of the hollow tube 12, as shown in the embodiment shown in FIG. Also, as shown in the embodiment shown in FIG. 5, the outgoing end 32 can be located in the region of the hollow tube or cylinder 12, especially in the resting or non-operating state. The second ram member 16 is also slidably disposed in the through hole 28 and has an outward end 36 and an inward end 38. The outward end 36 can extend beyond the second end 26 of the hollow tube 12, as shown in the embodiment shown in FIG. Also, as shown in FIG. 3, the outboard end 36 can be in the region of the hollow tube or cylinder 12, especially in the rest or inactive state. The extendable end of the prior art intensifier or portable rescue device is shown in dashed lines in FIG. 4 inserted into the opening 30 and in contact with the first and second ram members 14,16. The inward ends 34, 38 of the first and second ram members 14, 16 can have flat, concave, or convex surfaces. In addition, the ends 34, 38 have protrusions for accommodating the ends of the intensifier and maintaining contact between the ends and the ram members 14, 16 to facilitate transmission of force from the intensifier to the ram member. , Slots, grooves, depressions or other means can be provided. The hollow tube 12 holds the first and second ram members 14, 16 in an end-to-end relationship. The tube 12 and the ram members 14, 16 can be constructed such that the inward ends 34, 38 abut or substantially abut each other, particularly in the rest or inactive state as in FIG. The inward ends 34, 38 of the first and second ram members 14, 16 can be separated between a minimum offset in the active portion 40 of the hollow tube 12 and a second offset. At least a portion of the opening 30 is disposed over the active portion 40 of the hollow tube 12. The active part 40 corresponds to the part of the tool 10 in which the drive of the first and second ram members 14, 16 is performed by a booster. Preferably, opening 30 is large enough to accommodate the fully expanded end of the booster. The minimum offset preferably corresponds to the minimum separation required to operatively insert the end of the desired intensifier between the first and second ram members 14,16. Increasing the end-to-end relative movement separates the first and second ram members 14, 16 to one or more second offsets greater than the minimum offset. One or both of the first and second ram members 14, 16 can at least partially project from the hollow tube when the ram members are separated by a second offset. Thus, the force transmitted through the movement of the end of the booster is further transmitted through the tool 10. The tools may be separated by a maximum working offset corresponding to the widest gap that the first and second ram members 14, 16 can obtain when the end of the booster is inserted into the opening 30. . The first ram member 14 further includes a shell member 42, an outwardly directed axial hole 44, and a support rod 46. The shell member 42 is slidably disposed within the through hole 28 and has an inward closed end 48 and an outward open end 50. Outwardly extending axial bore 44 preferably extends partially into shell member 42 and support rod 46 is inserted into axial bore 44. The support rod 46 is preferably slidably disposed in the axial bore 44. Thus, the support rod 46 shown in FIGS. 2 and 3 is a telescopic support rod. FIG. 6 shows a particular embodiment having means 52 for selectively limiting insertion of the support rod 46 into the hollow tube 12. One or more longitudinally spaced transverse holes 54 are provided in the support rod 46 and at least one pin 56 is provided for insertion into one of the holes. Pin 56 may abut first end 24 of hollow tube 12. Preferably, hole 54 extends through support rod 46. Also, the pins 56 may abut the shell member 42, thereby limiting insertion of the support rod 46 into the shell member 42. As can be seen in FIG. 7, the second ram member 16 also includes means 58 for selectively securing the second ram member 16 in the through-hole 28, the means 58 being provided in the second ram member 16. , One or more lateral holes 62 disposed through the hollow tube 12, and one of the holes 62 in the tube 12 and the hole 60 in the second ram member 16. At least one adjustment pin 64 for insertion into one of the Two or more longitudinally spaced transverse holes 54 may be provided in the support rod 46 and one pin 56 may be inserted into one of the holes 54. FIG. 2 shows at least one lateral hole 60 disposed in the second ram member 16, one lateral hole 62 disposed through the hollow tube 12, and a hole 62 in the tube 12 and the second ram member. 16 shows an embodiment having at least one adjustment pin 64 for insertion into a hole 60 in 16. As can be seen in FIG. 8, the second ram member 16 is selectively secured in two or more fixed locations to a series of longitudinally spaced holes 60 in the second ram member 16. May be. As shown in FIGS. 2, 3 and 9, the spreading tool 10 may further include a substrate 66 adapted to engage the outward end 36 of the second ram member 16. The substrate 66 can be fixedly or removably attached to the second ram member 16. The substrate 66 can distribute the force transmitted through the tool 10, here the second ram member 16, over a larger area at the outward end 36. In addition, the substrate 66 extends the lateral or lateral reach of the tool 10 to obtain a scaffold or fulcrum for the object. The outward end 36 of the second ram member 16 is shown in FIGS. 2, 3 and 8 as a pointed or substantially conical tip 68. The conical tip 68 can function as an anchoring or piercing means as required by the application of the tool 10. The conical tip 68 can engage an object without the use of any substrate 66, as may be warranted for a particular application. The substrate 66 of FIGS. 2 and 3 is in the form of a substrate ring 70 having an inner hole 72 adapted to slide over and engage a conical tip 68. The substrate ring 70 further includes gripping means 74 (not shown in FIG. 3) disposed on the outwardly facing surface 76 of the substrate ring 70. The gripping means 74 has at least one projection 78 extending from the outwardly facing surface 76 of the substrate 66 or the substrate ring 70. The distal end of the conical tip 68 preferably extends beyond the outwardly facing surface 76, but may terminate before reaching the surface 76. The gripping means 74 engages the surface of the object with the tool 10 facing away and helps prevent slippage between the tool 10 and the object. The outward end 36 of the second ram member 16 shown in FIG. The substrate 66 can be fixedly or screwed to the second ram member 16. As can be seen in FIG. 2, handle means 82 may be disposed on the outer surface 22 of the tubular wall 18. In FIG. 2, two handles are shown on both ends of the tubular cylinder 12. The handle means 82 can be gripped to position the tool 10 for operation. The spreading tool 10 is preferably further provided with first and second engaging means 88, a first engaging means 88 and a second engaging means 90 in the particular embodiment of FIGS. A means 84 is provided for preventing rotation of the ram members 14,16. The tool 10 preferably includes means 84 for preventing rotation of the first and second ram members 14,16. This is because it is generally desirable to convert all available forces generated by the intensifier to translational motion, without minimizing rotational motion. Rotational movement may distort the object on which the tool 10 is supported or placed, thereby destroying other parts of the object or anchor points needed to move other objects. There is also. Further, the rotational movement may compromise the stability of the tool 10 during use, which may cause the tool 10 to rotate or slide out of the point of contact concerned. Slot means 86 is disposed on the inner surface 20 of the tubular wall 18. The slot means 86 may include one or more longitudinally aligned grooves or slots, which preferably extend along the entire length of the inner surface 20 of the tube 12. The first engaging means 88 is disposed on the outer surface 92 of the first ram means 14 or on the outer surface of the shell member 42 and is adapted to fit into and slidably engage with the slot means 86. Has become. The first engagement means 88 allows the ram member 14 to slide axially within the through hole 28 of the hollow tube 12 and substantially prevents rotation of the first ram member 14 within the tube 12. . Similarly, a second engagement means 90 is disposed on the outer surface 94 of the second ram member 16 and is slidably engaged with the slot means 86. The second cradle means 90 allows the ram member to slide axially within the through hole 28 of the hollow tube 12 and substantially prevents rotation of the second ram member 16. The first and second engagement means 88, 90 may comprise one or more projections or protrusions or ridges or knots, which fit within the slot means 86 and slide therein. The inward end 34 of the first ram member 14 in FIGS. 2, 3 and 11 is provided with an inner end plate 96 which at least partially passes through the opening 30 as best seen in FIGS. And includes a protrusion 98 that extends and abuts a portion of the tubular wall 18 around the opening 30. Any contact between the protrusion 98 and the hollow tube 12 substantially prevents rotation of the first ram 14. Thus, the protrusion 98 and the opening 30 can function as a means for preventing the rotation of the first ram member 14. The protrusion 98 can also serve as a means for receiving an additional contact area or one or more ends of a booster. In addition, the protrusion 98 substantially prevents the first ram member or at least the shell member 42 from sliding completely out of the hollow tube 12. Furthermore, the protrusion 98 may extend beyond the outer surface 22 of the tubular wall 18. As seen in FIGS. 2, 3 and 12, the spreading tool 10 may include means 100 for limiting penetration of the support rod 46 into the axial bore 44 of the shell member 42. A collar member 102 is attached to the outward end 50 of the shell member 42 and has a central hole 104 through which the support rod 46 can slide. In the embodiment shown in FIG. 2, at least a portion of the collar 102 also abuts the first end 24 of the hollow tube 12. The collar member 102 may be attached to the support rod 46 by screwing, or may be attached to the support rod 46 by a threaded fastener. Further, the flange member 102 may be fixedly attached to the support rod 46. As shown in the embodiment of FIG. 12, the pin 56 preferably abuts the collar member 102, particularly when the pin 56 is not intended to abut the first end 24 of the hollow tube 12. 2, 3 and 13, the bracket member 106 is shown attached to the outward end 32 of the first ram member 14. The bracket member 106 provides a gripping support that allows the tool to be wedged or supported on an object. The object or a part thereof is supported by the bracket member 32. It may be desirable to move or deform the object using the tool 10, or to make the object function as a base point or anchor point. Bracket member 106 preferably includes a base 108 and two opposing arms 110,112. The arm portions 110 and 112 shown on the bracket member 106 in FIG. 13 are each disposed substantially at right angles from the base portion 108. The arms 110, 112 shown on the bracket member 106 of FIGS. 2 and 3 are disposed at an obtuse angle from the base 108. Preferably, bracket member 106 is attached to support rod 46 by threaded fasteners 114. Thus, the bracket member 106 provides a force distribution or mounting means attached to the distal end of the first piston member 14. Another embodiment of the substrate 66 shown in FIG. 9 has an opening 116 that can fit over a protrusion 118 disposed on a generally flat portion of the outward end 36 of the second ram member 16. ing. Thus, the substrate 66 can be detachably attached to the second ram member 16. Alternatively, the outward end 36 of the second ram member 16 may be threaded, and the substrate 66 may have a threaded opening for receiving the second ram member 16. Further, the substrate 66 and the second ram member 16 may be detachably attached by a threaded fastener. In this manner, the substrate 66 can be positioned or secured to the second ram member 16 before or during positioning of the tool 10 to be used. FIGS. 4 and 5 show the first and second ram members 14 and 16 without any of the shell member 42, the outwardly directed axial bore 44, and the support rod 46. FIG. Each ram member 14, 16 is slidable within the hollow tube 12. FIG. 4 shows the ram members 14, 16 in an extended or activated position. FIG. 5 shows the ram members 14, 16 in the retracted position. As can be seen in FIG. 14, the hollow tube 12 may be modified to allow exchange between the first and second ram members 14 and 16. Holes 62 appear at both ends of tube 12. Further, instead of having first and second ram members 14 and 16 as described above, tool 10 may include two first ram members 14 or two second ram members 16. Thus, one or both of the first ram members 14 may be extendable, one or both of the first ram members 14 may have the bracket member 106, and one or both of the second ram members 16 It may have a sharp or conical tip 68. Further, gripping means 74 may be disposed on the distal end of the first or second piston member 14 or 16 or both to reduce slippage during use of the tool 10. Hollow tube 12 may have a substantially circular cross-section as shown in FIG. 2, or may have other cross-sectional shapes, such as the square cross-section shown in FIG. In one particular embodiment, the hollow tube 12 is made from 6061-T651 aluminum and has an outside diameter of 3 inches and a diameter of 0.30. Extruded tube with 375 inch tubular wall. The shell member 42 has a minimum outer diameter of 1. 875 (+ 0, -0. 104), the maximum outer diameter is 2. 25 inches and manufactured from 2024-T351 aluminum. These members can be made of, for example, aluminum to reduce the total weight of the tool 10. The second ram member 16, support rod 46, substrate 66, bracket member 106, and threaded fastener 114 are manufactured from 4330/4340 heat treated steel. The holding means 74, the inner end plate 96, and the collar member 102 are made of steel. The longitudinally spaced transverse holes 46 in the support rod 46 are preferably 112 inch holes that extend completely through the support rod 46, and the pins or bolts 56 are sized to fit into the holes 54. ing. The side hole 56 is 3/8 inch in diameter, and the pins or bolts 60 are sized to fit within the hole 56. It should be understood that different sizes, dimensions, and / or materials may be included in the above and other embodiments. One or more elements of the tool 10 may be lubricated, particularly those elements that frictionally contact other elements, such as during sliding or rotational engagement. Lubrication can include oils, greases, graphite, or other liquid or solid based lubricants, including mixtures of solid and liquid lubricants. In operation, the tool is positioned between two contact points or surfaces by gripping the handle means 82 and inserting the tool 10 into a desired position. The first and second ram members 14, 16 are displaced by hand, by a shackle-like tool, or by the end of a booster, through the opening 30 to receive the end of the booster through the opening 30. Provides a minimum offset between the ram members. The ends are inserted and separated apart, whereby the first and second ram members 14, 16 are separatedly moved or leveraged. The invention is not limited to the examples described and shown herein, which are merely illustrative of the best embodiments of the invention, and the details of the shape, size, arrangement and operation of the parts may vary. It should be understood that Rather, the invention is intended to cover all such modifications that come within the spirit and scope as defined in the following claims. Claims 1. A tool for use with a booster that transmits power through relative movement between at least two extendable ends, comprising: a hollow tube, a first extension member disposed within the tube, a second extension member disposed within the tube. An extension member, wherein the first and second extension members are movable and separable, and receive an extendable end within the tube and allow the extendable end to contact the first and second extension members. Increased relative movement between the extendable ends increases relative movement between the first and second extension members, whereby power is transmitted from the extendable ends through the extension members. This allows the tool to increase the distance over which power is transmitted. 2. The tool according to claim 1, wherein said first extension member is slidably disposed within said tube. 3. The tool according to claim 1, wherein the second extension member is slidably disposed within the tube. 4. The tool according to claim 1, further comprising means for preventing rotation of said first extension member. 5. 2. The tool according to claim 1, further comprising means for preventing rotation of said second extension member. 6. The tool of claim 1, further comprising means for selectively securing said second extension member within said tube. 7. The tool of claim 1, further comprising handle means disposed on an outer surface of said tube. 8. The tool according to claim 1, wherein said first extension member further comprises an extendable extension member. 9. The tool of claim 1, further comprising means for limiting insertion of the first extension member into the tube. Ten. The tool according to claim 1, further comprising means for distributing the force transmitted through said first extension member. 11． The tool according to claim 1, further comprising bracket means attached to a distal end of said first extension member. 12． The tool according to claim 1, further comprising means for distributing the force transmitted through said second extension member. 13. The tool of claim 1, further comprising a substrate attached to a distal end of said second extension member. 14. The tool of claim 1, further comprising a substrate ring removably attached to a distal end of said second extension member. 15． The tool of claim 14, wherein said second extension member further comprises a pointed end. 16． The tool of claim 1, further comprising gripping means disposed on a distal end of said first or second extension member for reducing slippage during use of said tool. 17． A tubular wall having an inner surface and an outer surface; first and second ends; and an axial direction defined by the inner surface of the tubular wall and extending along a longitudinal axis from a first end to a second end. A hollow tube having a through hole, and at least one opening extending through the tubular wall, slidably disposed within the through hole, having an outward end and an inward end, the outward end being A first ram member adapted to extend beyond a first end of the hollow tube, and slidably disposed within the through-hole and having an outward end and an inward end. The outward end comprising a second ram member adapted to extend beyond a second end of the hollow tube, wherein the first and second ram members are within an active portion of the hollow tube. Can be separated from each other between a minimum offset and a second offset at At least a portion of the opening is disposed over an active portion of the hollow tube, and one or both of the ram members are at least partially hollow when the ram members are separated by a second offset. A spreading tool characterized by being able to protrude from a pipe. 18． A shell member having the first ram member slidably disposed within the through-hole and having an inward closed end and an outward open end; an outward shaft partially extending into the shell member; 18. The spreading tool according to claim 17, further comprising a direction hole, and a support rod inserted into the axial direction hole. 19. 19. The extension tool according to claim 18, wherein the support rod is slidably disposed in the axial hole. 20. 19. The spreading tool according to claim 18, further comprising means for selectively limiting insertion of said support rod into said hollow tube. twenty one. 21. The apparatus according to claim 20, further comprising one or more side holes longitudinally spaced within the support rod, and at least one pin for insertion into one of the holes. The described extension tool. twenty two. 22. The spreading tool according to claim 21, wherein said pin is abuttable on a first end of said hollow tube. twenty three. 18. The spreading tool according to claim 17, wherein said second ram member further comprises means for selectively securing said second ram member in said through hole. twenty four. The means for selectively securing the second ram member includes: one or more side holes disposed within the second ram member; one or more side holes disposed through the hollow tube; 24. The spreading tool according to claim 23, further comprising at least one adjustment pin for insertion into one of said holes in said tube and one of said holes in said second ram member. . twenty five. 25. The apparatus according to claim 24, further comprising means for selectively securing said second ram member at two or more securing locations relative to a series of longitudinally spaced holes. Extension tool. 26. 18. The spreading tool according to claim 17, further comprising a substrate adapted to engage an outwardly facing end of said second ram member. 27. 22. The spreading tool according to claim 21, wherein the substrate is detachably attached to the ram member. 28. 18. The spreading tool according to claim 17, wherein the outward end of the second ram member further comprises a generally conical tip. 29. 29. The extension of claim 28, wherein said substrate further comprises a substrate ring having an inner bore adapted to slide over and engage said conical tip. tool. 30. 30. The spreading tool according to claim 29, wherein said substrate ring further comprises gripping means disposed on an outwardly facing surface of said substrate ring. 31. 27. The spreading tool according to claim 26, wherein said substrate further comprises gripping means disposed on an outwardly facing surface of said substrate. 32. 31. The spreading tool according to claim 30, wherein said gripping means further comprises at least one protrusion extending from an outwardly facing surface of said substrate. 33. 32. The spreading tool according to claim 31, wherein said gripping means further comprises at least one protrusion extending from an outwardly facing surface of said substrate. 34. 18. The spreading tool according to claim 17, wherein the outward end of the second ram member further comprises a substantially flat portion. 35. 27. The spreading tool according to claim 26, wherein the substrate is attached to the second ram member by screwing. 36. 18. The spreading tool according to claim 17, further comprising handle means disposed on an outer surface of the tubular wall. 37. 18. The spreading tool according to claim 17, further comprising means for preventing rotation of said first and second ram members. 38. A slot means disposed on an inner surface of the tubular wall; and an axial direction in a through hole of the hollow tube, wherein the ram member is disposed on an outer surface of the first ram member. First engaging means adapted to be slidably engageable with the slot means so as to substantially prevent rotation of the ram member; and an outer surface of the second ram member. Disposed above the ram member so as to be axially slidable within the through-hole of the hollow tube and slidably engageable with the slot means to substantially prevent rotation of the ram member. 38. The spreading tool according to claim 37, further comprising a second engaging means. 39. 19. The spreading tool according to claim 18, wherein said support rod further comprises a telescopic support rod. 40. The inward end of the first ram member further comprises an inner end plate, the inner end plate extending at least partially through the opening and abutting a portion of a tubular wall surrounding the opening. 19. The extension according to claim 18, including a projection that is configured so that any contact between the projection and the hollow tube substantially prevents rotation of the first ram. tool. 41. 19. The spreading tool according to claim 18, further comprising means for restricting entry of said shell member into a through hole of said hollow tube. 42. The intrusion restricting means further comprises a flange member attached to an outward open end of the shell member and having a central hole that allows the support rod to slide and pass, at least a part of the flange is provided. 42. The spreading tool according to claim 41, wherein the spreading tool can abut a first end of the shell member. 43. 43. The spreading tool according to claim 42, wherein the flange member is attached to the shell member by screwing. 44. 44. The spreading tool according to claim 43, wherein the collar member is attached to the shell member by a threaded fastener. 45. 43. The spreading tool according to claim 42, wherein the flange member is fixedly attached to the shell member. 46. Further comprising a flange member attached to an outward open end of the shell member and having a central hole for allowing the support rod to slide and pass, wherein the pin can abut the flange member. 22. The spreading tool according to claim 21, characterized in that: 47. 18. The spreading tool according to claim 17, further comprising a bracket member connected to an outward end of said first ram member. 48. 48. The spreading tool according to claim 47, wherein said bracket member further comprises a base and two opposing arms. 49. 49. The spreading tool according to claim 48, wherein said arm portion is disposed substantially at right angles from said base portion. 50. 49. The spreading tool according to claim 48, wherein the arm portion is disposed at an obtuse angle from the base. 51. A spreading tool for use with a portable rescue device having at least two expandable jaws, comprising: a first elongated piston member, a second elongated piston member, and the first and second piston members terminated. A hollow tube adapted to hold the members in a separated relationship, the tube including means for allowing an expandable jaw to move and separate the first and second piston members. This allows the tool to increase the extendable distance of the jaws. 52. 52. The tool according to claim 51, wherein said first piston member is slidably disposed within said tube. 53. 52. The tool according to claim 51, wherein said second piston member is slidably disposed within said tube. 54. 53. The tool according to claim 52, wherein said second piston member is fixedly disposed within said tube. 55. 52. The tool according to claim 51, further comprising means for preventing rotation of said first piston member. 56. 52. The tool according to claim 51, further comprising means for preventing rotation of said second piston member. 57. 52. The tool according to claim 51, further comprising means for selectively securing said second piston member within said tube. 58. 54. The tool according to claim 53, further comprising means for selectively securing said second piston member within said tube. 59. 52. The tool of claim 51, further comprising handle means disposed on an outer surface of the tube. 60. 52. The tool according to claim 51, wherein said first piston member further comprises a telescopic piston member. 61. 52. The tool according to claim 51, further comprising means for limiting insertion of said first piston member into said tube. 62. 52. The tool according to claim 51, further comprising a force distribution means attached to a distal end of said first piston member. 63. 52. The tool according to claim 51, further comprising bracket means attached to a distal end of said first piston member. 64. 52. The tool according to claim 51, further comprising a force distribution means attached to a distal end of said second piston member. 65. 52. The tool according to claim 51, further comprising a substrate attached to a distal end of said second piston member. 66. 52. The tool of claim 51, further comprising a substrate ring removably attached to a distal end of said second piston member. 67. 67. The tool according to claim 66, wherein said second piston member further comprises a pointed end. 68. 52. The tool according to claim 51, further comprising gripping means disposed on a distal end of said first or second piston member to reduce slippage of said tool during use. FIG. FIG. 2 FIG. 3 FIG. 4 FIG. 5 FIG. 6 FIG. 7 FIG. 8 FIG. 9 FIG. 10 FIG. 11 FIG. FIG. 13 FIG. FIG. 14

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FI, FR, GB, GR, IE, IT, L U, MC, NL, PT, SE), OA (BF, BJ, CF) , CG, CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (GH, GM, KE, LS, M W, SD, SZ, UG, ZW), EA (AM, AZ, BY) , KG, KZ, MD, RU, TJ, TM), AL, AU , BA, BB, BG, BR, CA, CN, CU, CZ, EE, GE, GW, HU, ID, IL, IS, JP, K P, KR, LC, LK, LR, LT, LV, MG, MK , MN, MX, NO, NZ, PL, RO, SG, SI, SK, SL, TR, TT, UA, UZ, VN, YU (72) Inventor Tartaglia Frank Jay             United States, New Jersey             07860, Rockaway, Monroe Pre             Chair 16

Claims (1)

[Claims] 1. Intensifier transmitting power through relative movement between at least two extendable ends   A tool used with     Hollow tube,     A first extension member disposed in the tube;     A second extension member disposed within the tube, wherein the first and second extension members Is movable and separable, and     Receiving a extendable end within the tube and extending the extendable end with the first and second extensions Means for enabling contact with the member,     The first and second extensions by increasing relative movement between the extendable ends The relative movement between the materials increases,     Thereby, output is transmitted from the extendable end through the extension member,     This allows the tool to increase the distance over which power is transmitted A tool characterized in that: